Your search keyword '"Behavioral sensitization"' showing total 1,521 results

1. Role of Rab10 in cocaine-induced behavioral effects is associated with GABAB receptor membrane expression in the nucleus accumbens.

Author

Yu, Zhuoxuan, Fu, Qiang, Qiu, Tianyun, Yang, Caidi, Lu, Mingfen, Peng, Qinghua, Yang, Jianhua, and Hu, Zhenzhen

Abstract

Aim: Previous studies have demonstrated that Ras-related GTP-binding protein Rab10 (Rab10) plays a role in psychostimulant-induced behavioral effects. In this study, we showed that Rab10 in the nucleus accumbens (NAc) of male animals affects the development of cocaine-induced behavioral effects, which are associated with the plasma membrane expression of the GABAB heteroreceptor (GABABR). Methods: We performed flow cytometry, immunoendocytosis, pHluorin activity analysis, electrophysiology analysis, and open-field testing to explore the role of Rab10 in modulating the membrane expression and function of GABABR and its regulatory effect on cocaine-induced behavioral effects. Results: Transcriptomics analysis showed that Rab10 was elevated following acute cocaine treatment. Membrane levels of Rab10 increased within day 1 of the cocaine treatment, subsequently decreasing at later time points. Rab10 deficiency in NAc regions significantly increased cocaine-inhibited membrane GABABR levels and inhibited cocaine-induced hyperlocomotion and behavioral sensitization. In addition, GAD 67 + -expressing neurons from NAc regions treated with cocaine revealed a significant decrease in Rab10 membrane expression. Furthermore, NAc neuron-specific Rab10 knockout resulted in a significant increase in the cocaine-inhibited membrane expression of GABABR, along with increased miniature inhibitory postsynaptic current (mIPSC) amplitude and attenuation of baclofen-amplified Ca2+ influx. Conclusion: These results uncover a new mechanism in which Rab10-GABABR signaling may serve as a potential pathway for regulating cocaine-induced behavioral effects. [ABSTRACT FROM AUTHOR]

Published

2024

2. 槟榔次碱速效抗疲劳活性及其通过调控 血脑屏障发挥抗疲劳机制研究.

Author

刘书伟, 张田田, 王燕, and 武天明

Abstract

To explore the development prospects of arecaidine anti fatigue products, a mouse behavioral sensitization model was constructed to analyze the quick-acting anti fatigue activity and its mechanism of arecaidine by using indicators such as the exhaustive swimming time, blood lactate, hemoglobin (Hb), blood urea nitrogen, malondialdehyde, muscle glycogen, liver glycogen, Evans blue, 5-hydroxytryptamine (5-HT), dopamine (DA) and 5-HT/DA value. The results showed that arecaidine could prolong the exhaustive swimming time of mice, and behavioral sensitization could effectively enhance the activity of arecaidine. The exhaustive swimming time of both treatments of behavioral sensitized mice was significantly longer than that of two non sensitized treatments and two controls (P<0.01). Oral sustained-release administration also promoted the activity of arecaidine. Arecaidine can inhibit the accumulation of blood lactate, malondialdehyde and blood urea nitrogen in swimming mice, and alleviate the decrease in Hb and DA levels, and weaken the increase of 5-HT in the brain, and inhibit the depletion of muscle glycogen and liver glycogen, and hinder the increase of 5-HT/DA values in the brain, and enhance the permeability of the blood-brain barrier (BBB), Moreover, and behavioral sensitization and oral sustained-release administration can enhance the above effects. Arecaidine can exert anti fatigue effects by inhibiting the decrease of oxygen transport protein levels, balancing central neurotransmitters, reducing the accumulation of metabolites and energy consumption, regulating BBB permeability to allow 5-HT in the brain to diffuse into the bloodstream, and reducing the inhibition of 5-HT on brain excitation. Arecaidine can only exert excellent quick-acting anti fatigue activity on behavior sensitized organisms through oral sustained-release administration, the reason may be that arecaidine is absorbed through the oral mucosa, avoiding the first pass effect of the gastrointestinal tract and rapidly increasing its entry into the bloodstream. This study can provide theoretical support for the development of quick-acting anti fatigue products of arecaidine. [ABSTRACT FROM AUTHOR]

Published

2024

3. Role of Rab10 in cocaine-induced behavioral effects is associated with GABAB receptor membrane expression in the nucleus accumbens

Author

Zhuoxuan Yu, Qiang Fu, Tianyun Qiu, Caidi Yang, Mingfen Lu, Qinghua Peng, Jianhua Yang, and Zhenzhen Hu

Subjects

cocaine, nucleus accumbens, behavioral sensitization, ras-related GTP-binding protein Rab10, gamma aminobutyric acid type B receptor, Therapeutics. Pharmacology, RM1-950

Abstract

AimPrevious studies have demonstrated that Ras-related GTP-binding protein Rab10 (Rab10) plays a role in psychostimulant-induced behavioral effects. In this study, we showed that Rab10 in the nucleus accumbens (NAc) of male animals affects the development of cocaine-induced behavioral effects, which are associated with the plasma membrane expression of the GABAB heteroreceptor (GABABR).MethodsWe performed flow cytometry, immunoendocytosis, pHluorin activity analysis, electrophysiology analysis, and open-field testing to explore the role of Rab10 in modulating the membrane expression and function of GABABR and its regulatory effect on cocaine-induced behavioral effects.ResultsTranscriptomics analysis showed that Rab10 was elevated following acute cocaine treatment. Membrane levels of Rab10 increased within day 1 of the cocaine treatment, subsequently decreasing at later time points. Rab10 deficiency in NAc regions significantly increased cocaine-inhibited membrane GABABR levels and inhibited cocaine-induced hyperlocomotion and behavioral sensitization. In addition, GAD67+-expressing neurons from NAc regions treated with cocaine revealed a significant decrease in Rab10 membrane expression. Furthermore, NAc neuron-specific Rab10 knockout resulted in a significant increase in the cocaine-inhibited membrane expression of GABABR, along with increased miniature inhibitory postsynaptic current (mIPSC) amplitude and attenuation of baclofen-amplified Ca2+ influx.ConclusionThese results uncover a new mechanism in which Rab10-GABABR signaling may serve as a potential pathway for regulating cocaine-induced behavioral effects.

Published

2024

4. Effects of social housing conditions on ethanol-induced behavioral sensitization in Swiss mice.

Author

van Ingelgom, Théo, Didone, Vincent, Godefroid, Leeloo, and Quertemont, Étienne

Subjects

*SENSITIZATION (Neuropsychology), *LABORATORY mice, *SOCIAL history, *ETHANOL, *MICE, *SOCIAL isolation, *BIOCONVERSION

Abstract

Rationale: In previous animal model studies, it was shown that drug sensitization is dependent upon physical environmental conditions. However, the effects of social housing conditions on drug sensitization is much less known. Objective: The aim of the present study was to investigate the effects of social conditions, through the size of housing groups, on ethanol stimulant effects and ethanol-induced behavioral sensitization in mice. Materials and methods: Male and female Swiss mice were housed in groups of different sizes (isolated mice, two mice per cage, four mice per cage and eight mice per cage) during a six-week period. A standard paradigm of ethanol-induced locomotor sensitization was then started with one daily injection of 2.5 g/kg ethanol for 8 consecutive days. Results: The results show that social housing conditions affect the acute stimulant effects of ethanol. The highest stimulant effects were observed in socially isolated mice and then gradually decreased as the size of the group increased. Although the rate of ethanol sensitization did not differ between groups, the ultimate sensitized levels of ethanol-induced stimulant effects were significantly reduced in mice housed in groups of eight. Conclusions: These results are consistent with the idea that higher levels of acute and sensitized ethanol stimulant effects are observed in mice housed in stressful housing conditions, such as social isolation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Identification of the circRNA–miRNA–mRNA network for treating methamphetamine‐induced relapse and behavioral sensitization with cannabidiol.

Author

Liu, Liu, Wang, Chan, Wang, Haowei, Miao, Lin, Xie, Tong, Tian, Yunqing, Li, Xiaodong, Huang, Yizhen, Zeng, Xiaofeng, and Zhu, Bofeng

Subjects

*SENSITIZATION (Neuropsychology), *COMPETITIVE endogenous RNA, *CANNABIDIOL, *NUCLEUS accumbens, *GENE expression

Abstract

Aims: This study aims to investigate the pharmacological effects and the underlying mechanism of cannabidiol (CBD) on methamphetamine (METH)‐induced relapse and behavioral sensitization in male mice. Methods: The conditioned place preference (CPP) test with a biased paradigm and open‐field test were used to assess the effects of CBD on METH‐induced relapse and behavioral sensitization in male mice. RNA sequencing and bioinformatics analysis was employed to identify differential expressed (DE) circRNAs, miRNAs, and mRNAs in the nucleus accumbens (NAc) of mice, and the interaction among them was predicted using competing endogenous RNAs (ceRNAs) network analysis. Results: Chronic administration of CBD (40 mg/kg) during the METH withdrawal phase alleviated METH (2 mg/kg)‐induced CPP reinstatement and behavioral sensitization in mice, as well as mood and cognitive impairments following behavioral sensitization. Furthermore, 42 DEcircRNAs, 11 DEmiRNAs, and 40 DEmRNAs were identified in the NAc of mice. The circMeis2‐miR‐183‐5p‐Kcnj5 network in the NAc of mice is involved in the effects of CBD on METH‐induced CPP reinstatement and behavioral sensitization. Conclusions: This study constructed the ceRNAs network for the first time, revealing the potential mechanism of CBD in treating METH‐induced CPP reinstatement and behavioral sensitization, thus advancing the application of CBD in METH use disorders. [ABSTRACT FROM AUTHOR]

Published

2024

6. Carbetocin Inhibits Behavioral Sensitization to Ethanol in Male and Female Mice, Independent of Corticosterone Levels.

Author

Costa, Beatriz Yamada, Santos, Luana Gasparini, Marianno, Priscila, Rae, Mariana, de Almeida, Marina Gomes, de Brito, Malcon Carneiro, Eichler, Rosângela, and Camarini, Rosana

Subjects

ETHANOL, CORTICOSTERONE, ALCOHOL drinking, LABORATORY mice, ALCOHOLISM, DRUG addiction, OXYTOCICS, GLUCOCORTICOIDS

Abstract

Oxytocin (OXT), a pro-social peptide, is increasingly recognized as a potential protective substance against drug addiction. In the context of ethanol, previous research has shown OXT's properties in reducing self-administration, alleviating motor impairment in rodents, and reducing craving in humans. However, its role in behavioral sensitization, a neuroadaptive response resulting from repeated drug exposure linked to an increased drug incentive, remains unexplored. OXT is recognized for its role in regulating the hypothalamic–pituitary–adrenal (HPA) axis, in which corticosterone is acknowledged as a significant factor in the development of behavioral sensitization. This study aimed to investigate the effects of carbetocin (CBT), an analogue of OXT, on the expression of behavioral sensitization to ethanol and the concurrent alterations in plasma corticosterone levels in male and female Swiss mice. We also aimed to confirm previous studies on OXT's impact on ethanol consumption in male mice, but with a focus on CBT, using the two-bottle choice model and the drinking in the dark (DID) methodology. For the sensitization study, the mice received either ethanol (1.8 g/kg, i.p.) or saline treatments daily for 15 consecutive days, followed by treatment with carbetocin (0.64 mg/kg, i.p.) or a vehicle for 6 days. Subsequently, on day 22, all the animals underwent an ethanol challenge to assess the expression of behavioral sensitization. The plasma corticosterone levels were measured on days 21 and 22. The CBT effectively prevented the expression of ethanol-induced behavioral sensitization in both male and female subjects, with no alterations having been detected in their corticosterone levels. In the ethanol consumption study, following an initial phase of ethanol acquisition, the male mice underwent a 6-day treatment with CBT i.p. or saline before being re-exposed to ethanol. We also found a reduction in their ethanol consumption due to the CBT treatment. In conclusion, carbetocin emerges as a promising and effective intervention for mitigating ethanol-induced behavioral sensitization and reducing ethanol intake, highlighting its potential significance in alcohol addiction treatment. [ABSTRACT FROM AUTHOR]

Published

2023

7. Activation of the Mu-Delta Opioid Receptor Heteromers Blocks Morphine Rewarding Effects.

Author

Aradas, Ariadna Requana, Djaboub, Youssra, McCort-Tranchepain, Isabelle, Hajasova, Zuzana, Clémenceau, Loïc, Canestrelli, Corinne, Mann, Anika, Schulz, Stefan, Delaval, Angélique, Acher, Francine, Massotte, Dominique, Noble, Florence, and Marie, Nicolas

Subjects

OPIOID receptors, MORPHINE, DRUG addiction

Abstract

Background Evidence has accumulated demonstrating the existence of opioid receptor heteromers, and recent data suggest that targeting these heteromers could reduce opioid side effects while retaining therapeutic effects. Indeed, CYM51010 characterized as a MOR (mu opioid receptor)/DOR (delta opioid receptor) heteromer–preferring agonist promoted antinociception comparable with morphine but with less tolerance. In the perspective of developing these new classes of pharmacological agents, data on their putative side effects are mandatory. Methods Therefore, in this study, we investigated the effects of CYM51010 in different models related to drug addiction in mice, including behavioral sensitization, conditioned place preference and withdrawal. Results We found that, like morphine, CYM51010 promoted acute locomotor activity as well as psychomotor sensitization and rewarding effect. However, it induced less physical dependence than morphine. We also investigated the ability of CYM51010 to modulate some morphine-induced behavior. Whereas CYM51010 was unable to block morphine-induced physical dependence, it blocked reinstatement of an extinguished morphine induced-conditioned place preference. Conclusions Altogether, our results reveal that targeting MOR-DOR heteromers could represent a promising strategy to block morphine reward. [ABSTRACT FROM AUTHOR]

Published

2023

8. Assessment of pharmacological safety of a new dipeptide mimetic of the 2nd loop of BDNF when co-administered with ethanol

Author

A. V. Nadorova, E. M. Grigorevskikh, A. V. Tarasiuk, N. M. Sazonova, and L. G. Kolik

Subjects

bdnf mimetic, locomotor activity, behavioral sensitization, ethanol, mice, Pharmacy and materia medica, RS1-441

Abstract

To assess the pharmacological safety of the dipeptide mimetic of the 2nd loop of BDNF (compound GTS-201) when co-administered with ethanol, its effect on the alteration in motor activity induced by ethanol during acute and subchronic administration in mice C57Bl/6 and DBA/2 was studied. It was found that GTS-201 at a dose of 5.0 mg / kg, i.p., without affecting spontaneous motor activity per se, after a preliminary acute administration prevented the development of a sedative reaction caused by ethanol (2.0 g/ kg, i.p.) in C57Bl/6 mice. After subchronic administration, GTS-201 is devoid of psychostimulant effect and impact on the formation of ethanol-induced behavioral sensitization in DBA/2 mice. The data obtained indicate the absence of a psychostimulant component and synergism in the pharmacological profile of GTS-201 when used with ethanol at low dose.

Published

2023

9. Amphetamine and the Biology of Neuronal Morphology

Author

Tendilla-Beltrán, Hiram, Arroyo-García, Luis Enrique, Flores, Gonzalo, Patel, Vinood B., editor, and Preedy, Victor R., editor

Published

2022

10. The CaMKII‐dependent phosphorylation of GABAB receptors in the nucleus accumbens was involved in cocaine‐induced behavioral sensitization in rats.

Author

Lu, Ming F., Fu, Qiang, Qiu, Tian Y., Yang, Jian H., Peng, Qing H., and Hu, Zhen Z.

Subjects

*COCAINE, *NUCLEUS accumbens, *CALMODULIN, *PROTEIN kinases, *RATS, *CELL membranes, *PHOSPHORYLATION

Abstract

Background: Previous studies have established that the regulation of prolonged, distal neuronal inhibition by the GABAB heteroreceptor (GABABR) is determined by its stability, and hence residence time, on the plasma membrane. Aims: Here, we show that GABABR in the nucleus accumbens (NAc) of rats affects the development of cocaine‐induced behavioral sensitization by mediating its perinucleus internalization and membrane expression. Materials & Methods: By immunofluorescent labeling, flow cytometry analysis, Co‐immunoprecipitation and open field test, we measured the role of Ca2+/calmodulin‐dependent protein kinase II (CaMKII) to the control of GABABR membrane anchoring and cocaine induced‐behavioral sensitization. Results: Repeated cocaine treatment in rats (15 mg/kg) significantly decreases membrane levels of GABAB1R and GABAB2R in the NAc after day 3, 5 and 7. The membrane fluorescence and protein levels of GABABR was also decreased in NAc GAD67+ neurons post cocaine (1 μM) treatment after 5 min. Moreover, the majority of internalized GABAB1Rs exhibited perinuclear localization, a decrease in GABAB1R‐pHluroin signals was observed in cocaine‐treated NAc neurons. By contrast, membrane expression of phosphorylated CaMKII (pCaMKII) post cocaine treatment was significantly increased after day 1, 3, 5 and 7. Baclofen blocked the cocaine induced behavioral sensitization via inhibition of cocaine enhanced‐pCaMKII‐GABAB1R interaction. Conclusion: These findings reveal a new mechanism by which pCaMKII‐GABABR signaling can promote psychostimulant‐induced behavioral sensitization. [ABSTRACT FROM AUTHOR]

Published

2023

11. The roles of ubiquitin–proteasome system and regulator of G protein signaling 4 in behavioral sensitization induced by a single morphine exposure.

Author

Wang, Yanting, Hou, Xingzi, Wei, Shoupeng, Yan, Jiaqing, Chen, Zhe, Zhang, Mingyu, Zhang, Qingying, Lu, Yingyuan, Zhang, Qingjie, Zheng, Tiange, Jia, Jingyi, Dong, Bin, Li, Ying, Zhang, Yuanyuan, Liang, Jianhui, and Li, Guohui

Subjects

*G proteins, *OPIOID abuse, *MORPHINE, *NUCLEUS accumbens, *PROTEIN expression, *PROTEASOME inhibitors

Abstract

Aims: Opioid addiction is a major public health issue, yet its underlying mechanism is still unknown. The aim of this study was to explore the roles of ubiquitin–proteasome system (UPS) and regulator of G protein signaling 4 (RGS4) in morphine‐induced behavioral sensitization, a well‐recognized animal model of opioid addiction. Methods: We explored the characteristics of RGS4 protein expression and polyubiquitination in the development of behavioral sensitization induced by a single morphine exposure in rats, and the effect of a selective proteasome inhibitor, lactacystin (LAC), on behavioral sensitization. Results: Polyubiquitination expression was increased in time‐dependent and dose‐related fashions during the development of behavioral sensitization, while RGS4 protein expression was not significantly changed during this phase. Stereotaxic administration of LAC into nucleus accumbens (NAc) core inhibited the establishment of behavioral sensitization. Conclusion: UPS in NAc core is positively involved in behavioral sensitization induced by a single morphine exposure in rats. Polyubiquitination was observed during the development phase of behavioral sensitization, while RGS4 protein expression was not significantly changed, indicating that other members of RGS family might be substrate proteins in UPS‐mediated behavioral sensitization. [ABSTRACT FROM AUTHOR]

Published

2023

12. Distinctive Neuroanatomic Regions Involved in Cocaine-Induced Behavioral Sensitization in Mice.

Author

Santos-Baldaia, Renan dos, Wuo-Silva, Raphael, Sanabria, Viviam, Baldaia, Marilia A., Yokoyama, Thais S., Coppi, Antonio Augusto, Hollais, André W., Marinho, Eduardo A. V., Oliveira-Lima, Alexandre J., and Longo, Beatriz M.

Subjects

NUCLEUS accumbens, PREFRONTAL cortex, MICE

Abstract

The present study aimed to characterize the phenomenon of behavioral sensitization to cocaine and to identify neuroanatomical structures involved in the induction and expression phases of this phenomenon. For this, in experiment 1 (induction phase), mice were treated with saline or cocaine every second day for 15 days (conditioning period), in the open-field or in their home-cages. In experiment 2 (expression phase), the same protocol was followed, except that after the conditioning period the animals were not manipulated for 10 days, and after this interval, animals were challenged with cocaine. Neuroanatomical structures involved in the induction and expression phases were identified by stereological quantification of c-Fos staining in the dorsomedial prefrontal cortex (dmPFC), nucleus accumbens core (NAc core and shell (NAc shell), basolateral amygdala (BLA), and ventral tegmental area (VTA). Neuroanatomical analysis indicated that in the induction phase, cocaine-conditioned animals had higher expression of c-Fos in the dmPFC, NAc core, BLA, and VTA, whereas in the expression phase, almost all areas had higher expression except for the VTA. Therefore, environmental context plays a major role in the induction and expression of behavioral sensitization, although not all structures that compose the mesolimbic system contribute to this phenomenon. [ABSTRACT FROM AUTHOR]

Published

2023

13. Replication of distinct trajectories of antidepressant response to intravenous ketamine.

Author

O'Brien, Brittany, Lee, Jaehoon, Kim, Seungman, Nandra, Guriqbal S., Pannu, Prabhneet, Swann, Alan C., Murphy, Nicholas, Tamman, Amanda J.F., Amarneh, Dania, Lijffijt, Marijn, Averill, Lynnette A., and Mathew, Sanjay J.

Subjects

*KETAMINE abuse, *KETAMINE, *MENTAL depression, *CLINICAL trials, *DEPRESSED persons

Abstract

Background: The goal of this study was to replicate previous findings of three distinct treatment response pathways associated with repeated intravenous (IV) ketamine infusions among patients with major depressive disorder (MDD).Methods: We conducted growth mixture modeling to estimate latent classes of change in depression (Quick Inventory of Depressive Symptomatology-Self Report, QIDS-SR) across six treatment visits in 298 patients with MDD treated with IV ketamine in an outpatient community clinic. Mean age was 40.36 and patients were primarily male (58.4 %). The sample had relatively severe depression (QIDS-SR = 16.61) at pre-treatment and the majority had not responded to at least two prior medications.Results: Best-fit indices indicated three trajectory groups to optimally demonstrate non-linear, quadratic changes in depressive symptoms during ketamine treatment. Two groups had severe depression at baseline but diverged into a group of modest improvement over the treatment course (n = 78) and a group of patients with rapid improvement (n = 103). A third group had moderate depression at baseline with moderate improvement during the treatment course (n = 117). Additional planned trajectory comparisons showed that suicidality at entry was higher in the high depression groups and that change in suicidality severity followed that of depression.Limitations: This was a retrospective analysis of a naturalistic sample. Patients were unblinded and more heterogenous than those included in most controlled clinical trial samples.Conclusions: This replication study in an independent community-based ketamine clinic sample revealed similar response trajectories, with only about a third of depressed patients benefitting substantially from an acute induction course of ketamine infusions. [ABSTRACT FROM AUTHOR]

Published

2023

14. Carbetocin Inhibits Behavioral Sensitization to Ethanol in Male and Female Mice, Independent of Corticosterone Levels

Author

Beatriz Yamada Costa, Luana Gasparini Santos, Priscila Marianno, Mariana Rae, Marina Gomes de Almeida, Malcon Carneiro de Brito, Rosângela Eichler, and Rosana Camarini

Subjects

behavioral sensitization, ethanol, oxytocin, addiction, estrous cycle, ethanol self-administration, Chemical technology, TP1-1185

Abstract

Oxytocin (OXT), a pro-social peptide, is increasingly recognized as a potential protective substance against drug addiction. In the context of ethanol, previous research has shown OXT’s properties in reducing self-administration, alleviating motor impairment in rodents, and reducing craving in humans. However, its role in behavioral sensitization, a neuroadaptive response resulting from repeated drug exposure linked to an increased drug incentive, remains unexplored. OXT is recognized for its role in regulating the hypothalamic–pituitary–adrenal (HPA) axis, in which corticosterone is acknowledged as a significant factor in the development of behavioral sensitization. This study aimed to investigate the effects of carbetocin (CBT), an analogue of OXT, on the expression of behavioral sensitization to ethanol and the concurrent alterations in plasma corticosterone levels in male and female Swiss mice. We also aimed to confirm previous studies on OXT’s impact on ethanol consumption in male mice, but with a focus on CBT, using the two-bottle choice model and the drinking in the dark (DID) methodology. For the sensitization study, the mice received either ethanol (1.8 g/kg, i.p.) or saline treatments daily for 15 consecutive days, followed by treatment with carbetocin (0.64 mg/kg, i.p.) or a vehicle for 6 days. Subsequently, on day 22, all the animals underwent an ethanol challenge to assess the expression of behavioral sensitization. The plasma corticosterone levels were measured on days 21 and 22. The CBT effectively prevented the expression of ethanol-induced behavioral sensitization in both male and female subjects, with no alterations having been detected in their corticosterone levels. In the ethanol consumption study, following an initial phase of ethanol acquisition, the male mice underwent a 6-day treatment with CBT i.p. or saline before being re-exposed to ethanol. We also found a reduction in their ethanol consumption due to the CBT treatment. In conclusion, carbetocin emerges as a promising and effective intervention for mitigating ethanol-induced behavioral sensitization and reducing ethanol intake, highlighting its potential significance in alcohol addiction treatment.

Published

2023

15. The roles of ubiquitin–proteasome system and regulator of G protein signaling 4 in behavioral sensitization induced by a single morphine exposure

Author

Yanting Wang, Xingzi Hou, Shoupeng Wei, Jiaqing Yan, Zhe Chen, Mingyu Zhang, Qingying Zhang, Yingyuan Lu, Qingjie Zhang, Tiange Zheng, Jingyi Jia, Bin Dong, Ying Li, Yuanyuan Zhang, Jianhui Liang, and Guohui Li

Subjects

behavioral sensitization, morphine, opioid addiction, regulator of g protein signaling 4, ubiquitin–proteasome system, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Aims Opioid addiction is a major public health issue, yet its underlying mechanism is still unknown. The aim of this study was to explore the roles of ubiquitin–proteasome system (UPS) and regulator of G protein signaling 4 (RGS4) in morphine‐induced behavioral sensitization, a well‐recognized animal model of opioid addiction. Methods We explored the characteristics of RGS4 protein expression and polyubiquitination in the development of behavioral sensitization induced by a single morphine exposure in rats, and the effect of a selective proteasome inhibitor, lactacystin (LAC), on behavioral sensitization. Results Polyubiquitination expression was increased in time‐dependent and dose‐related fashions during the development of behavioral sensitization, while RGS4 protein expression was not significantly changed during this phase. Stereotaxic administration of LAC into nucleus accumbens (NAc) core inhibited the establishment of behavioral sensitization. Conclusion UPS in NAc core is positively involved in behavioral sensitization induced by a single morphine exposure in rats. Polyubiquitination was observed during the development phase of behavioral sensitization, while RGS4 protein expression was not significantly changed, indicating that other members of RGS family might be substrate proteins in UPS‐mediated behavioral sensitization.

Published

2023

16. Involvement of neuronal nitric oxide synthase in cross-sensitization between chronic unpredictable stress and ethanol in adolescent and adult mice

Author

Santos-Rocha, Jaqueline Borges, Rae, Mariana, Teixeira, Ana Maria Aristimunho, Teixeira, Simone Aparecida, Munhoz, Carolina Demarchi, Muscará, Marcelo Nicolas, Marcourakis, Tania, Szumlinski, Karen K, and Camarini, Rosana

Subjects

Biological Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Basic Behavioral and Social Science, Alcoholism, Alcohol Use and Health, Behavioral and Social Science, Pediatric, Substance Misuse, Neurosciences, Mental health, Good Health and Well Being, Aging, Animals, Behavior, Animal, Central Nervous System Depressants, Corticosterone, Enzyme Inhibitors, Ethanol, Hippocampus, Indazoles, Mice, Motor Activity, Nitric Oxide Synthase Type I, Prefrontal Cortex, Stress, Psychological, Alcohol, Behavioral sensitization, Cross-sensitization, Adolescent, Chronic unpredictable stress, Nitric oxide synthase, Public Health and Health Services, Substance Abuse, Biological psychology, Clinical and health psychology

Abstract

The peculiar neurochemical profile of the adolescent brain renders it differently susceptible to several stimuli, including stress and/or drug exposure. Among several stress mediators, nitric oxide (NO) has a role in stress responses. We have demonstrated that adolescent mice are less sensitive to ethanol-induced sensitization than adult mice. The present study investigated whether chronic unpredictable stress (CUS) induces behavioral sensitization to ethanol in adolescent and adult Swiss mice, and investigated the influence of Ca2+-dependent nitric oxide synthase (NOS) activity in the phenomenon. Adolescent and adult mice were exposed to repeated 1.8 g/kg ethanol or CUS and challenged with saline or ethanol. A neuronal nitric oxide synthase (nNOS) inhibitor, 7-nitroindazole (7NI), was administered along with ethanol and CUS to test its effects on behavioral sensitization. Both adolescent and adult mice displayed cross-sensitization between CUS and ethanol in adult mice, with adolescents showing a lower degree of sensitization than adults. nNOS inhibition by 7NI reduced both ethanol sensitization and cross-sensitization. All age differences in the Ca2+-dependent NOS activity in the hippocampus and prefrontal cortex were in the direction of greater activity in adults than in adolescents. Adolescents showed lower sensitivity to cross-sensitization between CUS and ethanol, and the nitric oxide (NO) system seems to have a pivotal role in ethanol-induced behavioral sensitization and cross-sensitization in both adolescent and adult mice.

Published

2018

17. µ-Opioid Receptors Expressed by Intrinsically Photosensitive Retinal Ganglion Cells Contribute to Morphine-Induced Behavioral Sensitization.

Author

Bergum, Nikolas, Berezin, Casey-Tyler, King, Connie M., and Vigh, Jozsef

Subjects

*OPIOID receptors, *RETINAL ganglion cells, *OREXINS, *COGNITIVE therapy, *BODY temperature, *DRUG tolerance, *DRUG efficacy

Abstract

Opioid drugs are the most effective tools for treating moderate to severe pain. Despite their analgesic efficacy, long-term opioid use can lead to drug tolerance, addiction, and sleep/wake disturbances. While the link between opioids and sleep/wake problems is well-documented, the mechanism underlying opioid-related sleep/wake problems remains largely unresolved. Importantly, intrinsically photosensitive retinal ganglion cells (ipRGCs), the cells that transmit environmental light/dark information to the brain's sleep/circadian centers to regulate sleep/wake behavior, express μ-opioid receptors (MORs). In this study, we explored the potential contribution of ipRGCs to opioid-related sleep/circadian disruptions. Using implanted telemetry transmitters, we measured changes in horizontal locomotor activity and body temperature in mice over the course of a chronic morphine paradigm. Mice lacking MORs expressed by ipRGCs (McKO) exhibited reduced morphine-induced behavioral activation/sensitization compared with control littermates with normal patterns of MOR expression. Contrastingly, mice lacking MORs globally (MKO) did not acquire morphine-induced locomotor activation/sensitization. Control mice also showed morphine-induced hypothermia in both the light and dark phases, while McKO littermates only exhibited morphine-induced hypothermia in the dark. Interestingly, only control animals appeared to acquire tolerance to morphine's hypothermic effect. Morphine, however, did not acutely decrease the body temperature of MKO mice. These findings support the idea that MORs expressed by ipRGCs could contribute to opioid-related sleep/wake problems and thermoregulatory changes. [ABSTRACT FROM AUTHOR]

Published

2022

18. Embryonic exposure to fentanyl induces behavioral changes and neurotoxicity in zebrafish larvae.

Author

Binjie Wang, Jiale Chen, Zhong Sheng, Wanting Lian, Yuanzhao Wu, and Meng Liu

Subjects

FENTANYL, LARVAE, BRACHYDANIO, NEUROTOXICOLOGY, EMBRYOLOGY, NEUROPLASTICITY

Abstract

The use of fentanyl during pregnancy, whether by prescription or illicit use, may result in high blood levels that pose an early risk to fetal development. However, little is known regarding the neurotoxicity that might arise from excessive fentanyl exposure in growing organisms, particularly drug-related withdrawal symptoms. In this study, zebrafish embryos were exposed to fentanyl solutions (0.1, 1, and 5 mg/L) for 5 days post fertilization (dpf), followed by a 5-day recovery period, and then the larvae were evaluated for photomotor response, anxiety behavior, shoaling behavior, aggression, social preference, and sensitization behavior. Fentanyl solutions at 1 and 5 mg/L induced elevated anxiety, decreased social preference and aggressiveness, and behavioral sensitization in zebrafish larvae. The expression of genes revealed that embryonic exposure to fentanyl caused substantial alterations in neural activity (bdnf, c-fos) and neuronal development and plasticity (npas4a, egr1, btg2, ier2a, vgf). These results suggest that fentanyl exposure during embryonic development is neurotoxic, highlighting the importance of zebrafish as an aquatic species in research on the neurobehavioral effects of opioids in vertebrates. [ABSTRACT FROM AUTHOR]

Published

2022

19. Impulsivity and Suicidal Behavior

Author

Swann, Alan C., Lijffijt, Marijn, O’Brien, Brittany, Mathew, Sanjay J., Geyer, Mark A., Series Editor, Ellenbroek, Bart A., Series Editor, Marsden, Charles A., Series Editor, Barnes, Thomas R.E., Series Editor, Andersen, Susan L., Series Editor, de Wit, Harriet, editor, and Jentsch, J. David, editor

Published

2020

20. Maternal Methamphetamine Exposure Influences Behavioral Sensitization and Nucleus Accumbens DNA Methylation in Subsequent Generation.

Author

Nan Dong, Jie Zhu, Rui Wang, Shuai Wang, Yanjiong Chen, Changhe Wang, Goh, Eyleen L. K., and Teng Chen

Subjects

NUCLEUS accumbens, MATERNAL exposure, DNA methylation, COMPULSIVE behavior, ADULT children, METHYLATION

Abstract

The deleterious effects of methamphetamine (METH) exposure extend beyond abusers, and may potentially impact the vulnerability of their offspring in developing addictive behaviors. Epigenetic signatures have been implicated in addiction, yet the characteristics to identify prenatal METH abuse to offspring addiction risk remains elusive. Here, we used escalating doses of METH-exposed mouse model in F0 female mice before and during pregnancy to simulate the human pattern of drug abuse and generated METH-induced behavioral sensitization to investigate the addictive behavior in offspring mice. We then utilized whole genome-bisulfite sequencing (WGBS) to investigate the methylation signature of nucleus accumbens (NAc) in male METH-sensitized mice. Interestingly, male but not female offspring exhibited an enhanced response to METHinduced behavioral sensitization. Additionally, the METH-exposed group of male mice underwent a more comprehensive wave of epigenome remodeling over all genomic elements compared with unexposed groups due to drug exposure history. 104,219 DMCs (METH-SAL vs. SAL-SAL) induced by prenatal METH-exposure were positively correlated with that of postnatal METH-exposure (38,570, SAL-METH vs. SALSAL). Moreover, 4,983 DMCs induced by pre-and postnatal METH exposure (METHMETH vs. SAL-METH) were negatively correlated with that of postnatal METH exposure, and 371 commonly changed DMCs between the two comparison groups also showed a significantly negative correlation and 86 annotated genes functionally enriched in the pathways of neurodevelopment and addiction. Key annotated genes included Kirrel3, Lrpprc, and Peg3, implicated in neurodevelopmental processes, were down-regulated in METH-METH group mice compared with the SAL-METH group. Taken together, we render novel insights into the epigenetic correlation of drug exposure and provide evidence for epigenetic characteristics that link maternal METH exposure to the intensity of the same drug-induced behavioral sensitization in adult offspring. [ABSTRACT FROM AUTHOR]

Published

2022

21. Opioid-environment interaction: Contrasting effects of morphine administered in a novel versus familiar environment on acute and repeated morphine induced behavioral effects and on acute morphine ERK activation in reward associated brain areas.

Author

Coelho, Gabriela Corrêa, Crespo, Luiz Gustavo Soares Carvalho, Sampaio, Maria de Fátima dos Santos, Silva, Regina Claudia Barbosa, Samuels, Richard Ian, Carey, Robert J., and Carrera, Marinete Pinheiro

Subjects

*OPIOID abuse, *SENSITIZATION (Neuropsychology), *CONTRAST effect, *LABORATORY rats, *DRUG addiction

Abstract

We report that environmental context can have a major impact on morphine locomotor behavior and ERK effects. We manipulated environmental context in terms of an environmental novelty/ familiarity dimension and measured morphine behavioral effects in both acute and chronic morphine treatment protocols. Wistar rats (n=7 per group) were injected with morphine 10 mg/kg or vehicle (s.c.), and immediately placed into an arena for 5 min, and locomotor activity was measured after one or 5 days. The morphine treatments were initiated either when the environment was novel or began after the rats had been familiarized with the arena by being given 5 daily nondrug tests in the arena. The results showed that acute and chronic morphine effects were strongly modified by whether the environment was novel or familiar. Acute morphine administered in a novel environment increased ERK activity more substantially in several brain areas, particularly in reward-associated areas such as the VTA in comparison to when morphine was given in a familiar environment. Repeated morphine treatments initiated in a novel environment induced a strong locomotor sensitization, whereas repeated morphine treatments initiated in a familiar environment did not induce a locomotor stimulant effect but rather a drug discriminative stimulus dis-habituation effect. The marked differential effects of environmental novelty/familiarity and ongoing dopamine activity on acute and chronic morphine treatments may be of potential clinical relevance for opioid drug addiction. • Environmental novelty is a modulator of acute and repeated effects of morphine. • In a novel environment, repeated MOR induced sensitization. • In a familiar environment, repeated MOR did not induce sensitization • In a novel environment acute MOR increased ERK activity. • MOR can reinforce prepotent behavior in a novel environment. [ABSTRACT FROM AUTHOR]

Published

2025

22. Behavioral sensitization induced by methamphetamine causes differential alterations in gene expression and histone acetylation of the prefrontal cortex in rats

Author

Hui Li, Jing-An Chen, Qian-Zhi Ding, Guan-Yi Lu, Ning Wu, Rui-Bin Su, Fei Li, and Jin Li

Subjects

Methamphetamine, Behavioral sensitization, Differentially expressed genes, Histone acetylation, ANP32A, POU3F2, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Abstract Background Methamphetamine (METH) is one of the most widely abused illicit substances worldwide; unfortunately, its addiction mechanism remains unclear. Based on accumulating evidence, changes in gene expression and chromatin modifications might be related to the persistent effects of METH on the brain. In the present study, we took advantage of METH-induced behavioral sensitization as an animal model that reflects some aspects of drug addiction and examined the changes in gene expression and histone acetylation in the prefrontal cortex (PFC) of adult rats. Methods We conducted mRNA microarray and chromatin immunoprecipitation (ChIP) coupled to DNA microarray (ChIP-chip) analyses to screen and identify changes in transcript levels and histone acetylation patterns. Functional enrichment analyses, including Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses, were performed to analyze the differentially expressed genes. We then further identified alterations in ANP32A (acidic leucine-rich nuclear phosphoprotein-32A) and POU3F2 (POU domain, class 3, transcription factor 2) using qPCR and ChIP-PCR assays. Results In the rat model of METH-induced behavioral sensitization, METH challenge caused 275 differentially expressed genes and a number of hyperacetylated genes (821 genes with H3 acetylation and 10 genes with H4 acetylation). Based on mRNA microarray and GO and KEGG enrichment analyses, 24 genes may be involved in METH-induced behavioral sensitization, and 7 genes were confirmed using qPCR. We further examined the alterations in the levels of the ANP32A and POU3F2 transcripts and histone acetylation at different periods of METH-induced behavioral sensitization. H4 hyperacetylation contributed to the increased levels of ANP32A mRNA and H3/H4 hyperacetylation contributed to the increased levels of POU3F2 mRNA induced by METH challenge-induced behavioral sensitization, but not by acute METH exposure. Conclusions The present results revealed alterations in transcription and histone acetylation in the rat PFC by METH exposure and provided evidence that modifications of histone acetylation contributed to the alterations in gene expression caused by METH-induced behavioral sensitization.

Published

2021

23. Environmental Enrichment Components Required to Reduce Methamphetamine-Induced Behavioral Sensitization in Mice: Examination of Behaviors and Neural Substrates.

Author

Cheng, Cai-N, Wu, Shaw-Jye, and Huang, Andrew Chih Wei

Subjects

*CINGULATE cortex, *DENTATE gyrus, *NUCLEUS accumbens, *INTRAPERITONEAL injections, *PREFRONTAL cortex, *SOCIAL anxiety

Abstract

Environmental enrichment (EE) involves the presentation of various sensory, physical, social, and cognitive stimuli in order to alter neural activity in specific brain areas, which can ameliorate methamphetamine (MAMPH)-induced behavioral sensitization and comorbid anxiety symptoms. No previous studies have comprehensively examined which EE components are critical for effectively reducing MAMPH-induced behavioral sensitization and anxiety. This study examined different housing conditions, including standard housing (SH, No EE), standard EE (STEE), physical EE (PEE), cognitive EE (CEE), and social EE (SEE). In the beginning, mice were randomly assigned to the different combinations of housing conditions and injections, consisting of No EE/Saline, No EE/MAMPH, STEE/MAMPH, PEE/MAMPH, CEE/MAMPH, and SEE/MAMPH groups. Then, the mice received intraperitoneal injections of 1 mg/kg MAMPH or normal saline daily for 7 days, followed by a final injection of 0.5 mg/kg MAMPH or normal saline. After behavioral tests, all mice were examined for c-Fos immunohistochemical staining. The results showed that MAMPH induced behavioral sensitization as measured by distance traveled. MAMPH appeared to induce lowered anxiety responses and severe hyperactivity. All EE conditions did not affect MAMPH-induced lowered anxiety behaviors. STEE was likely more effective for reducing MAMPH-induced behavioral sensitization than PEE, CEE, and SEE. The c-Fos expression analysis showed that the medial prefrontal cortex (i.e., cingulate cortex 1 (Cg1), prelimbic cortex (PrL), and infralimbic cortex (IL)), nucleus accumbens (NAc), basolateral amygdala (BLA), ventral tegmental area (VTA), caudate-putamen (CPu), and hippocampus (i.e., CA1, CA3, and dentate gyrus (DG)) contributed to MAMPH-induced behavioral sensitization. The Cg1, IL, NAc, BLA, VTA, CPu, CA3, and DG also mediated STEE reductions in MAMPH-induced behavioral sensitization. This study indicates that all components of EE are crucial for ameliorating MAMPH-induced behavioral sensitization, as no individual EE component was able to effectively reduce MAMPH-induced behavioral sensitization. The present findings provide insight into the development of non-pharmacological interventions for reducing MAMPH-induced behavioral sensitization. [ABSTRACT FROM AUTHOR]

Published

2022

24. Knockout of Dopamine D3 Receptor Gene Blocked Methamphetamine-Induced Distinct Changes of Dopaminergic and Glutamatergic Synapse in the Nucleus Accumbens Shell of Mice.

Author

Wang, Shuai, Li, Ming, Su, Linlan, Wang, Yu, Ma, Dongliang, Wang, Hongyan, Zhu, Jie, and Chen, Teng

Subjects

DOPAMINE receptors, NUCLEUS accumbens, GLUTAMATE receptors, SYNAPSES, MICE, GENES, DRUG side effects

Abstract

Structural plasticity changes in the brain are thought to underlie, at least partially, drug-induced persistent changes in behavior. Our previous study reported that increased synaptic density in the nucleus accumbens shell (NAcsh) correlates with and may contribute to behavioral sensitization induced by methamphetamine (METH). However, the distinct changes of dopaminergic and glutamatergic synapses and the modulating effects of dopamine D3 receptor remain unclear. In the current study, we used immunohistochemistry electron-microscopy and immunofluorescence to detect the changes of dopamine D1, D2, and glutamate NR2B-positive synapses and cells in the NAcsh of METH-sensitized wild type (WT) and knockout of dopamine D3 receptor gene (D3–/–) mice. We found that METH induced long-term behavioral sensitization in WT mice, which was accompanied by an increased number and rate of dopamine D1 receptor-positive synapses and cells, as well as glutamate NR2B-positive synapses and cells. In contrast, the number and rate of dopamine D2 receptor-positive synapses and cells were significantly decreased in the NAcsh of METH-sensitized WT mice. D3–/– mice exhibited attenuated acute locomotor responses and behavioral sensitization to METH compared with WT mice. Moreover, the knockout of dopamine D3 receptor gene inhibited METH-induced changes of dopaminergic and glutamatergic synapses in the NAcsh of METH-sensitized mice. Taken together, our results suggest that METH induced distinct changes of dopaminergic and glutamatergic synapses and cells in the NAcsh of mice, which was blocked by the knockout of dopamine D3 receptor gene, and may contribute to, at least partially, METH-induced behavior sensitization as well as the modulating effect of the dopamine D3 receptor. [ABSTRACT FROM AUTHOR]

Published

2022

25. Knockout of Dopamine D3 Receptor Gene Blocked Methamphetamine-Induced Distinct Changes of Dopaminergic and Glutamatergic Synapse in the Nucleus Accumbens Shell of Mice

Author

Shuai Wang, Ming Li, Linlan Su, Yu Wang, Dongliang Ma, Hongyan Wang, Jie Zhu, and Teng Chen

Subjects

methamphetamine, behavioral sensitization, nucleus accumbens, ultra-structural plasticity, dopamine D3 receptor, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Structural plasticity changes in the brain are thought to underlie, at least partially, drug-induced persistent changes in behavior. Our previous study reported that increased synaptic density in the nucleus accumbens shell (NAcsh) correlates with and may contribute to behavioral sensitization induced by methamphetamine (METH). However, the distinct changes of dopaminergic and glutamatergic synapses and the modulating effects of dopamine D3 receptor remain unclear. In the current study, we used immunohistochemistry electron-microscopy and immunofluorescence to detect the changes of dopamine D1, D2, and glutamate NR2B-positive synapses and cells in the NAcsh of METH-sensitized wild type (WT) and knockout of dopamine D3 receptor gene (D3–/–) mice. We found that METH induced long-term behavioral sensitization in WT mice, which was accompanied by an increased number and rate of dopamine D1 receptor-positive synapses and cells, as well as glutamate NR2B-positive synapses and cells. In contrast, the number and rate of dopamine D2 receptor-positive synapses and cells were significantly decreased in the NAcsh of METH-sensitized WT mice. D3–/– mice exhibited attenuated acute locomotor responses and behavioral sensitization to METH compared with WT mice. Moreover, the knockout of dopamine D3 receptor gene inhibited METH-induced changes of dopaminergic and glutamatergic synapses in the NAcsh of METH-sensitized mice. Taken together, our results suggest that METH induced distinct changes of dopaminergic and glutamatergic synapses and cells in the NAcsh of mice, which was blocked by the knockout of dopamine D3 receptor gene, and may contribute to, at least partially, METH-induced behavior sensitization as well as the modulating effect of the dopamine D3 receptor.

Published

2022

26. MDMA and memory, addiction, and depression: dose-effect analysis.

Author

Pantoni, Madeline M., Kim, Jinah L., Van Alstyne, Kaitlin R., and Anagnostaras, Stephan G.

Subjects

*ECSTASY (Drug), *DRUGS of abuse, *ADDICTIONS, *ANTIDEPRESSANTS, *MEMORY, *AMNESIA

Abstract

Rationale: ±3,4-Methylenedioxymethamphetamine (MDMA) is a recreational drug that shows substantial promise as a psychotherapeutic agent. Still, there is some concern regarding its behavioral toxicity, and its dose-effect relationship is poorly understood. We previously explored the role of dose in the cognitive effects of MDMA in a systematic review of existing literature and found no evidence in animals that MDMA impairs memory at low doses (< 3 mg/kg) but mixed results at high doses (≥ 3 mg/kg). Since this review comprised mostly of single-dose studies and an assortment of methodologies, an empirical dose-ranging study on this topic is warranted. Objectives: The current study aims to evaluate the conclusion from our systematic review that 3 mg/kg may be the threshold for MDMA-induced amnesia, and to further understand the dose-effect relationship of MDMA on behavioral assays of memory, addiction, and depression. Methods: We systematically examined the effects of 0.01 to 10 mg/kg MDMA on Pavlovian fear conditioning; behavioral sensitization, conditioned place preference, and conditioned responding; and the Porsolt forced swim test in mice. Results: High doses of MDMA (≥ 3 mg/kg) produced amnesia of fear conditioning memory, some evidence of an addictive potential, and antidepressant effects, while low doses of MDMA (≤ 1 mg/kg) had no effect on these behaviors. Conclusions: The present dose-ranging study provides further evidence that 3 mg/kg is the threshold for MDMA-induced amnesia. These findings, in addition to our systematic review, demonstrate that careful selection of MDMA dose is critical. High doses (≥ 3 mg/kg) should likely be avoided due to evidence that they can produce amnesia and addiction. Conversely, there is little evidence to suggest that low doses, which are usually administered in clinical studies (approximately 1–2 mg/kg), will lead to these same adverse effects. Ultra-low doses (< 1 mg/kg) are likely even safer and should be investigated for therapeutic effects in future studies. [ABSTRACT FROM AUTHOR]

Published

2022

27. Effects of repeated treatment with the 5-HT1A and 5-HT1B agonists (R)-( +)-8-hydroxy-DPAT and CP-94253 on the locomotor activity and axillary temperatures of preweanling rats: evidence of tolerance and behavioral sensitization.

Author

McDougall, Sanders A., Taylor, Jordan A., Roe, Matthew J., and Greenwood, Constance J.

Subjects

*RATS, *SALINE injections, *TREATMENT effectiveness, *DRUG side effects, *ANIMAL behavior, *THERAPEUTICS, *BIOLOGICAL models, *EXPERIMENTAL design, *BODY temperature, *DRUG tolerance, *INJECTIONS, *HUMAN locomotion, *AXILLA, *SEROTONIN antagonists, *ANIMAL experimentation, *NEUROPLASTICITY, *PHYSIOLOGICAL adaptation, *HYPOTHERMIA, *MOTOR ability, *PHYSIOLOGIC salines

Abstract

Rationale : Drugs that stimulate 5-HT1A/1B receptors produce both tolerance and behavioral sensitization in adult rats and mice, yet it is unknown whether the same types of plasticity are evident during earlier ontogenetic periods. Objective: The purpose of this study was to determine whether repeated treatment with selective 5-HT1A and/or 5-HT1B agonists cause tolerance and/or sensitization in preweanling rats. Methods: In Experiments 1 and 2, male and female preweanling rats were given a single pretreatment injection of saline, the 5-HT1A agonist (R)-(+)-8-hydroxy-DPAT (8-OH-DPAT), or the 5-HT1B agonist CP-94253 on PD 20. After 48 h, rats received a challenge injection of 8-OH-DPAT or CP-94253, respectively. In Experiment 3, rats were pretreated with saline or DPAT + CP on PD 20 and challenged with the same drug cocktail on PD 22. In Experiment 4, the tolerance- or sensitization-inducing properties of 8-OH-DPAT, CP-94253, or DPAT + CP were tested after a 4-day pretreatment regimen on PD 17–20. Results: On the first pretreatment day, 8-OH-DPAT, CP-94253, and DPAT + CP increased locomotion and caused hypothermia. Repeated treatment with 8-OH-DPAT (2 or 8 mg/kg) or DPAT + CP caused locomotor sensitization in preweanling rats. In contrast, tolerance to the hypothermic effects of 8-OH-DPAT (8 mg/kg), CP-94253 (5–20 mg/kg), or DPAT + CP was evident after repeated drug treatment. Conclusions: During the preweanling period, a single injection of a selective 5-HT1A or 5-HT1B agonist is capable of producing drug-induced plasticity. A pretreatment administration of 8-OH-DPAT causes both tolerance (hypothermia) and behavioral sensitization (locomotor activity) in preweanling rats, whereas repeated CP-94253 treatment results in tolerance. [ABSTRACT FROM AUTHOR]

Published

2022

28. A virtual library for behavioral performance in standard conditions—rodent spontaneous activity in an open field during repeated testing and after treatment with drugs or brain lesions.

Author

Szechtman, Henry, Dvorkin-Gheva, Anna, and Gomez-Marin, Alex

Subjects

*DIGITAL libraries, *BRAIN damage, *SOCIAL norms, *PERFORMANCE standards, *VIDEO recording, *MACHINE theory

Abstract

Background Beyond their specific experiment, video records of behavior have future value—for example, as inputs for new experiments or for yet unknown types of analysis of behavior—similar to tissue or blood sample banks in life sciences where clinically derived or otherwise well-described experimental samples are stored to be available for some unknown potential future purpose. Findings Research using an animal model of obsessive-compulsive disorder employed a standardized paradigm where the behavior of rats in a large open field was video recorded for 55 minutes on each test. From 43 experiments, there are 19,976 such trials that amount to over 2 years of continuous recording. In addition to videos, there are 2 video-derived raw data objects: XY locomotion coordinates and plots of animal trajectory. To motivate future use, the 3 raw data objects are annotated with a general schema—one that abstracts the data records from their particular experiment while providing, at the same time, a detailed list of independent variables bearing on behavioral performance. The raw data objects are deposited as 43 datasets but constitute, functionally, a library containing 1 large dataset. Conclusions Size and annotation schema give the library high reuse potential: in applications using machine learning techniques, statistical evaluation of subtle factors, simulation of new experiments, or as educational resource. Ultimately, the library can serve both as the seed and as the test bed to create a machine-searchable virtual library of linked open datasets for behavioral performance in defined conditions. [ABSTRACT FROM AUTHOR]

Published

2022

29. Distinctive Neuroanatomic Regions Involved in Cocaine-Induced Behavioral Sensitization in Mice

Author

Renan dos Santos-Baldaia, Raphael Wuo-Silva, Viviam Sanabria, Marilia A. Baldaia, Thais S. Yokoyama, Antonio Augusto Coppi, André W. Hollais, Eduardo A. V. Marinho, Alexandre J. Oliveira-Lima, and Beatriz M. Longo

Subjects

cocaine, behavioral sensitization, induction phase, expression phase, brain structures, c-Fos, Biology (General), QH301-705.5

Abstract

The present study aimed to characterize the phenomenon of behavioral sensitization to cocaine and to identify neuroanatomical structures involved in the induction and expression phases of this phenomenon. For this, in experiment 1 (induction phase), mice were treated with saline or cocaine every second day for 15 days (conditioning period), in the open-field or in their home-cages. In experiment 2 (expression phase), the same protocol was followed, except that after the conditioning period the animals were not manipulated for 10 days, and after this interval, animals were challenged with cocaine. Neuroanatomical structures involved in the induction and expression phases were identified by stereological quantification of c-Fos staining in the dorsomedial prefrontal cortex (dmPFC), nucleus accumbens core (NAc core and shell (NAc shell), basolateral amygdala (BLA), and ventral tegmental area (VTA). Neuroanatomical analysis indicated that in the induction phase, cocaine-conditioned animals had higher expression of c-Fos in the dmPFC, NAc core, BLA, and VTA, whereas in the expression phase, almost all areas had higher expression except for the VTA. Therefore, environmental context plays a major role in the induction and expression of behavioral sensitization, although not all structures that compose the mesolimbic system contribute to this phenomenon.

Published

2023

30. Arrestin-3-assisted activation of JNK3 mediates dopaminergic behavioral sensitization.

Author

Ahmed MR, Zheng C, Dunning JL, Ahmed MS, Ge C, Pair FS, Gurevich VV, and Gurevich EV

Subjects

Animals, Humans, Mice, Corpus Striatum metabolism, Corpus Striatum drug effects, Dopaminergic Neurons metabolism, Dopaminergic Neurons drug effects, Enzyme Activation drug effects, Levodopa pharmacology, Mice, Inbred C57BL, Phosphorylation drug effects, Arrestins metabolism, Arrestins genetics, Behavior, Animal drug effects, Dopamine metabolism, Mice, Knockout, Mitogen-Activated Protein Kinase 10 metabolism, Mitogen-Activated Protein Kinase 10 genetics

Abstract

In rodents with unilateral ablation of neurons supplying dopamine to the striatum, chronic treatment with the dopamine precursor L-DOPA induces a progressive increase of behavioral responses, a process known as behavioral sensitization. This sensitization is blunted in arrestin-3 knockout mice. Using virus-mediated gene delivery to the dopamine-depleted striatum of these mice, we find that the restoration of arrestin-3 fully rescues behavioral sensitization, whereas its mutant defective in c-Jun N-terminal kinase (JNK) activation does not. A 25-residue arrestin-3-derived peptide that facilitates JNK3 activation in cells, expressed ubiquitously or selectively in direct pathway striatal neurons, also fully rescues sensitization, whereas an inactive homologous arrestin-2-derived peptide does not. Behavioral rescue is accompanied by the restoration of JNK3 activity, as reflected by JNK-dependent phosphorylation of the transcription factor c-Jun in the dopamine-depleted striatum. Thus, arrestin-3-assisted JNK3 activation in direct pathway neurons is a critical element of the molecular mechanism underlying sensitization upon dopamine depletion and chronic L-DOPA treatment., Competing Interests: Declaration of interests E.V.G. and V.V.G. have a patent related to this work: “Peptide Regulators Of JNK Family Kinases”. Patent no.: US 10,369,187 B2, date of patent: Aug. 6, 2019., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

31. Potentiated Response of ERK/MAPK Signaling is Associated with Prolonged Withdrawal from Cocaine Behavioral Sensitization.

Author

Bingor, Alexey, Azriel, Matityahu, Amiad, Lavi, and Yaka, Rami

Abstract

Among the neuroadaptations underlying the expression of cocaine-induced behaviors are modifications in glutamate-mediated signaling and synaptic plasticity via activation of mitogen-activated protein kinases (MAPKs) within the nucleus accumbens (NAc). We hypothesized that exposure to cocaine leads to alterations in MAPK signaling in NAc neurons, which facilitates changes in the glutamatergic system and thus behavioral changes. We have previously shown that following withdrawal from cocaine-induced behavioral sensitization (BS), an increase in glutamate receptor expression and elevated MAPK signaling was evident. Here, we set out to determine the time course and behavioral consequences of inhibition of extracellular signal-regulated kinase (ERK) or NMDA receptors following withdrawal from BS. We found that inhibiting ERK by microinjection of U0126 into the NAc at 1 or 6 days following withdrawal from BS did not affect the expression of BS when challenged with cocaine at 14 days. However, inhibition of ERK 1 day before the cocaine challenge abolished the expression of BS. We also inhibited NR2B-containing NMDA receptors in the NAc by microinjection of ifenprodil into the NAc following withdrawal from BS, which had no effect on the expression of BS. However, microinjection of ifenprodil to the NAc 1 day before challenge attenuated the expression of BS similar to ERK inhibition. These results suggest that following a prolonged period of withdrawal, NR2B-containing NMDA receptors and ERK activity play a critical role in the expression of cocaine behavioral sensitization. [ABSTRACT FROM AUTHOR]

Published

2021

32. Transgenerational evidence of increases in dopamine D2 receptor sensitivity in rodents: Impact on sensorimotor gating, the behavioral response to nicotine and BDNF.

Author

Gill, Wesley Drew, Burgess, Katherine C, Vied, Cynthia, and Brown, Russell W

Subjects

*DOPAMINE receptors, *NICOTINE, *NICOTINIC receptors, *BRAIN-derived neurotrophic factor, *CELLULAR signal transduction, *RODENTS, *RATS

Abstract

Background/Aims: Neonatal quinpirole (NQ) treatment to rats increases dopamine D2 (DAD2) receptor sensitivity in adult animals. We investigated if increased DAD2 sensitivity would be passed to the next (F1) generation, and if these animals demonstrated sensorimotor gating deficits and enhanced behavioral responses to nicotine. Methods: Male and female rats were intraperitoneal (IP) administered quinpirole (1 mg/kg) or saline (NS) from postnatal day (P)1–21. Animals were either behaviorally tested (F0) or raised to P60 and mated, creating F1 offspring. Results: Experiment 1 revealed that F1 generation animals that were the offspring of at least one NQ-treated founder increased yawning behavior, a DAD2-mediated behavioral event, in response to acute quinpirole (0.1 mg/kg). F1 generation rats also demonstrated increased striatal β arrestin-2 and decreased phospho-AKT signaling, consistent with increased G-protein independent DAD2 signaling, which was equal to F0 NQ-treated founders, although this was not observed in all groups. RNA-Seq analysis revealed significant gene expression changes in the F1 generation that were offspring of both NQ-treated founders compared to F0 NQ founders and controls, with enrichment in sensitivity to stress hormones and cell signaling pathways. In Experiment 2, all F1 generation offspring demonstrated sensorimotor gating deficits compared to controls, which were equivalent to F0 NQ-treated founders. In Experiment 3, all F1 generation animals demonstrated enhanced nicotine behavioral sensitization and nucleus accumbens (NAcc) brain-derived neurotrophic factor (BDNF) protein. Further, F1 generation rats demonstrated enhanced adolescent nicotine conditioned place preference equivalent to NQ-treated founders conditioned with nicotine. Conclusions: This represents the first demonstration of transgenerational effects of increased DAD2 sensitivity in a rodent model. [ABSTRACT FROM AUTHOR]

Published

2021

33. The cognitive and behavioral effects of D-amphetamine and nicotine sensitization in adult zebrafish.

Author

Cleal, Madeleine, Fontana, Barbara D., and Parker, Matthew O.

Subjects

*ADULTS, *BRACHYDANIO, *ZEBRA danio, *NICOTINE, *NEUROPLASTICITY, *CYCLOSERINE, *SHORT-term memory

Abstract

Background: Zebrafish are growing in use as a model for understanding drug dependence and addiction. Sensitization paradigms have been a useful tool in identifying mechanisms involved in drug-induced behavioral and neurological changes, but in zebrafish have tended to focus on locomotor, rather than cognitive, endpoints. Methods: Here, we used a novel method, the FMP Y-maze, which measures continuous performance through a series of repeated binary choices (L vs R), to establish a model for assessing parameters associated with psychostimulant-induced behavioral and cognitive sensitization in adult zebrafish. Results: Repeat, intermittent exposure to d-amphetamine (AMPH) for 14 days increased alternations (LRLR) in the maze, suggesting improved working memory, which was enhanced further following drug challenge after a short withdrawal period, suggesting behavioral sensitization. However, this cognitive enhancement coincided with a reduction in the use of other exploration strategies, hypolocomotion, and inhibition of cognitive flexibility. Like AMPH, exposure to nicotine (NIC) increased alternations following drug challenge after chronic treatment. Repeat NIC exposure appeared to induce both cognitive and psychomotor sensitization, as evidenced by increased working memory performance (alternations) and locomotor activity, without negatively impacting other search strategies or cognitive flexibility. Conclusion: Chronic treatment with AMPH or NIC boosts cognitive performance in adult zebrafish. Cognitive sensitization occurred with both drugs, resulting in enhanced working memory; however, repeat AMPH exposure, following a withdrawal period, resulted in inhibited cognitive flexibility, an effect not evident with repeat NIC exposure. Cognitive and behavioral sensitization paradigms in zebrafish could serve as a useful tool for assessing cognitive states which result in cognitive enhancing or impairing effects of drugs. [ABSTRACT FROM AUTHOR]

Published

2021

34. The role of CYP2D in rat brain in methamphetamine-induced striatal dopamine and serotonin release and behavioral sensitization.

Author

Stocco, Marlaina R., El-Sherbeni, Ahmed A., Zhao, Bin, Novalen, Maria, and Tyndale, Rachel F.

Subjects

*METHAMPHETAMINE, *MICRODIALYSIS, *SEROTONIN, *DOPAMINE, *DOPAMINERGIC neurons, *CYTOCHROME P-450, *RAPHE nuclei, BRAIN metabolism

Abstract

Rationale: Cytochrome P450 2D (CYP2D) enzymes metabolize many addictive drugs, including methamphetamine. Variable CYP2D metabolism in the brain may alter CNS drug/metabolite concentrations, consequently affecting addiction liability and neuropsychiatric outcomes; components of these can be modeled by behavioral sensitization in rats. Methods: To investigate the role of CYP2D in the brain in methamphetamine-induced behavioral sensitization, rats were pretreated centrally with a CYP2D irreversible inhibitor (or vehicle) 20 h prior to each of 7 daily methamphetamine (0.5 mg/kg subcutaneous) injections. In vivo brain microdialysis was used to assess brain drug and metabolite concentrations, and neurotransmitter release. Results: CYP2D inhibitor (versus vehicle) pretreatment enhanced methamphetamine-induced stereotypy response sensitization. CYP2D inhibitor pretreatment increased brain methamphetamine concentrations and decreased the brain p-hydroxylation metabolic ratio. With microdialysis conducted on days 1 and 7, CYP2D inhibitor pretreatment exacerbated stereotypy sensitization and enhanced dopamine and serotonin release in the dorsal striatum. Day 1 brain methamphetamine and amphetamine concentrations correlated with dopamine and serotonin release, which in turn correlated with the stereotypy response slope across sessions (i.e., day 1 through day 7), used as a measure of sensitization. Conclusions: CYP2D-mediated methamphetamine metabolism in the brain is sufficient to alter behavioral sensitization, brain drug concentrations, and striatal dopamine and serotonin release. Moreover, day 1 methamphetamine-induced neurotransmitter release may be an important predictor of subsequent behavioral sensitization. This suggests the novel contribution of CYP2D in the brain to methamphetamine-induced behavioral sensitization and suggests that the wide variation in human brain CYP2D6 may contribute to differential methamphetamine responses and chronic effects. [ABSTRACT FROM AUTHOR]

Published

2021

35. Neonatal brain inflammation enhances methamphetamine-induced reinstated behavioral sensitization in adult rats analyzed with explainable machine learning.

Author

Wang, Kuo-Ching, Ojeda, Norma B., Wang, Haifeng, Chiang, Han-Sun, Tucci, Michelle A., Lee, Jonathan W., Wei, Han-Chi, Kaizaki-Mitsumoto, Asuka, Tanaka, Sachiko, Dankhara, Nilesh, Tien, Lu-Tai, and Fan, Lir-Wan

Subjects

*METHAMPHETAMINE, *ENCEPHALITIS, *DOPAMINE, *TREATMENT of drug addiction, *MACHINE learning, *REWARD (Psychology), *RATS

Abstract

Neonatal brain inflammation produced by intraperitoneal (i.p.) injection of lipopolysaccharide (LPS) results in long-lasting brain dopaminergic injury and motor disturbances in adult rats. The goal of the present work is to investigate the effect of neonatal systemic LPS exposure (1 or 2 mg/kg, i.p. injection in postnatal day 5, P5, male rats)-induced dopaminergic injury to examine methamphetamine (METH)-induced behavioral sensitization as an indicator of drug addiction. On P70, subjects underwent a treatment schedule of 5 once daily subcutaneous (s.c.) administrations of METH (0.5 mg/kg) (P70–P74) to induce behavioral sensitization. Ninety-six hours following the 5th treatment of METH (P78), the rats received one dose of 0.5 mg/kg METH (s.c.) to reintroduce behavioral sensitization. Hyperlocomotion is a critical index caused by drug abuse, and METH administration has been shown to produce remarkable locomotor-enhancing effects. Therefore, a random forest model was used as the detector to extract the feature interaction patterns among the collected high-dimensional locomotor data. Our approaches identified neonatal systemic LPS exposure dose and METH-treated dates as features significantly associated with METH-induced behavioral sensitization, reinstated behavioral sensitization, and perinatal inflammation in this experimental model of drug addiction. Overall, the analysis suggests that the implementation of machine learning strategies is sensitive enough to detect interaction patterns in locomotor activity. Neonatal LPS exposure also enhanced METH-induced reduction of dopamine transporter expression and [3H]dopamine uptake, reduced mitochondrial complex I activity, and elevated interleukin-1β and cyclooxygenase-2 concentrations in the P78 rat striatum. These results indicate that neonatal systemic LPS exposure produces a persistent dopaminergic lesion leading to a long-lasting change in the brain reward system as indicated by the enhanced METH-induced behavioral sensitization and reinstated behavioral sensitization later in life. These findings indicate that early-life brain inflammation may enhance susceptibility to drug addiction development later in life, which provides new insights for developing potential therapeutic treatments for drug addiction. [Display omitted] • Chronic inflammation induces striatal mitochondria, DAT and [3H]DA uptake changes. • Neonatal LPS produces dopaminergic lesions and enduring brain reward system changes. • Neonatal LPS enhances METH-induced reinstated behavior sensitization later in life. • Neonatal LPS doses and dates identified as features of behavioral sensitization. • Early-life inflammation enhances risk of drug addiction later in life. [ABSTRACT FROM AUTHOR]

Published

2024

36. Melatonin attenuates fentanyl - induced behavioral sensitization and circadian rhythm disorders in mice.

Author

Du, Kaili, Shi, Qianwen, Zhou, Xiuya, Zhang, Lifei, Su, Hongliang, Zhang, Chao, Wei, Zhiwen, Liu, Ting, Wang, Li, Wang, Xiaohui, Cong, Bin, and Yun, Keming

Subjects

*CHRONOBIOLOGY disorders, *FENTANYL, *MELATONIN, *MONOAMINE oxidase, *SUPRACHIASMATIC nucleus, *MELANOPSIN

Abstract

• Fentanyl induced behavioral sensitization and circadian rhythm disorders in mice. • Melatonin attenuated fentanyl induced behavioral sensitization and circadian rhythm disorders in mice. • Melatonin reversed the downregulation of BMAL1 in SCN, PFC, NAc, and Hip of mice. • Melatonin decreased the upregulation of TH and increased the downregulation of MAO-A in NAc, PFC and Hip of mice. Melatonin is a neurohormone synthesized by the pineal gland to regulate the circadian rhythms and has proven to be effective in treating drug addiction and dependence. However, the effects of melatonin to modulate the drug-seeking behavior of fentanyl and its underlying molecular mechanism is elusive. This study was designed to investigate the effects of melatonin on fentanyl - induced behavioral sensitization and circadian rhythm disorders in mice. The accompanying changes in the expression of Brain and Muscle Arnt-Like (BMAL1), tyrosine hydroxylase (TH), and monoamine oxidase A (MAO-A) in relevant brain regions including the suprachiasmatic nucleus (SCN), nucleus accumbens (NAc), prefrontal cortex (PFC), and hippocampus (Hip) were investigated by western blot assays to dissect the mechanism by which melatonin modulates fentanyl - induced behavioral sensitization and circadian rhythm disorders. The present study suggest that fentanyl (0.05, 0.1 and 0.2 mg/kg) could induce behavioral sensitization and melatonin (30.0 mg/kg) could attenuate the behavioral sensitization and circadian rhythm disorders in mice. Fentanyl treatment reduced the expression of BMAL1 and MAO-A and increased that of TH in relevant brain regions. Furthermore, melatonin treatment could reverse the expression levels of BMAL1, MAO-A, and TH. In conclusion, our study demonstrate for the first time that melatonin has therapeutic potential for fentanyl addiction. [ABSTRACT FROM AUTHOR]

Published

2024

37. Afobazole inhibits ethanol-induced behavioral sensitization in DBA/2 mice

Author

A. V. Nadorova and L. G. Kolik

Subjects

этанол, афобазол, гиперлокомоторная активность, поведенческая сенсибилизация, мыши dba/2, ethanol, afobazole, hyperlocomotion, behavioral sensitization, dba/2 mice, Pharmacy and materia medica, RS1-441

Abstract

Resume. Background. Adverse medical and social consequences of alcohol abuse determine the relevance of the search for new targets and methods of effective prevention and treatment of alcoholism. A significant limitation of the use of benzodiazepine anxiolytics in the treatment of alcohol disorders is their ability to potentiate the effects of ethanol. Earlier it was found that the original afobazol, effective in the treatment of anxiety disorders, in the range of anxiolytic doses does not affect the duration of alcoholic sleep and ethanol-induced muscle relaxation. The aim of the present work was to investigate the effects of afobazole on hyperlocomotion and expression of behavioral sensitization induced by ethanol. Methods. The effect of afobazole at the doses 1.0 and 10.0 mg/kg, i.p., on the ethanol-induced hyperlocomotion and behavioral sensitization was assessed in actometer OPTO-VARIMEX in male DBA/2 mice with increased sensitivity to the activating effect of ethanol. Results. Afobazole at a dose of 10.0 mg/kg, but not 1.0 mg/kg after acute administration prevented the development of ethanol-induced (2.0 g/kg, i.p.) hyperlocomotion, like naloxone 1.0 mg/kg, i.p., and antagonized ethanol-induced behavioral sensitization. Conclusion. Thus, the data obtained suggest that afobazole is capable of modeling the motivational effects of ethanol.

Published

2019

38. Neuronal scaffolding protein spinophilin is integral for cocaine-induced behavioral sensitization and ERK1/2 activation

Author

Lorena Bianchine Areal, Alison Hamilton, Cristina Martins-Silva, Rita Gomes Wanderley Pires, and Stephen S. G. Ferguson

Subjects

Drug addiction, Spinophilin, Cocaine, Behavioral sensitization, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Spinophilin is a scaffolding protein enriched in dendritic spines with integral roles in the regulation of spine density and morphology, and the modulation of synaptic plasticity. The ability of spinophilin to alter synaptic strength appears to involve its scaffolding of key synaptic proteins, including the important structural element F-actin, AMPA/NMDA modulator protein phosphatase 1, and neuromodulatory G-protein coupled receptors, including dopamine receptor D2 and metabotropic glutamate receptor 5. Additionally, spinophilin is highly expressed in the striatum, a brain region that is fundamentally involved in reward-processing and locomotor activity which receives both glutamatergic and dopaminergic inputs. Therefore, we aimed to investigate the role of spinophilin in behavioral responses to cocaine, evaluating wild-type and spinophilin knockout mice followed by the examination of underlying molecular alterations. Although acute locomotor response was not affected, deletion of spinophilin blocked the development and expression of behavioral sensitization to cocaine while maintaining normal conditioned place preference. This behavioral alteration in spinophilin knockout mice was accompanied by attenuated c-Fos and ∆FosB expression following cocaine administration and blunted cocaine-induced phosphorylation of ERK1/2 in the striatum, with no change in other relevant signaling molecules. Therefore, we suggest spinophilin fulfills an essential role in cocaine-induced behavioral sensitization, likely via ERK1/2 phosphorylation and induction of c-Fos and ∆FosB in the striatum, a mechanism that may underlie specific processes in cocaine addiction.

Published

2019

39. Distinct trajectories of antidepressant response to intravenous ketamine.

Author

O'Brien, Brittany, Lijffijt, Marijn, Lee, Jaehoon, Kim, Ye Sil, Wells, Allison, Murphy, Nicholas, Ramakrishnan, Nithya, Swann, Alan C., and Mathew, Sanjay J.

Subjects

*KETAMINE, *KETAMINE abuse, *CLINICAL trials, *ANTIDEPRESSANTS, *CHILD abuse, *METHYL aspartate receptors, *INTRAVENOUS therapy, *RETROSPECTIVE studies, *TREATMENT effectiveness, *MENTAL depression

Abstract

Background: The N-methyl-D-aspartate receptor antagonist ketamine is potentially effective in treatment resistant depression. However, its antidepressant efficacy is highly variable, and there is little information about predictors of response.Methods: We employed growth mixture modeling (GMM) analysis to examine specific response trajectories to intravenous (IV) ketamine (three infusions; mean dose 0.63 mg/kg, SD 0.28, range 0.30 - 2.98 mg/kg over 40 min) in 328 depressed adult outpatients referred to a community clinic. The Quick Inventory of Depressive Symptomatology-Self-Report (QIDS-SR) assessed depression severity at baseline and before each infusion, up to three infusions for four total observations.Results: GMM revealed three QIDS-SR response trajectories. There were two groups of severely depressed patients, with contrasting responses to ketamine. One group (n=135, baseline QIDS-SR=18.8) had a robust antidepressant response (final QIDS-SR=7.3); the other group (n=97, QIDS-SR=19.8) was less responsive (final QIDS-SR=15.6). A third group (n=96) was less severely depressed at baseline (QIDS-SR=11.7), with intermediate antidepressant response (final QIDS-SR=6.6). Comparisons of demographic and clinical characteristics between groups with severe baseline depression revealed higher childhood physical abuse in the group with robust ketamine response (p=0.01).Limitations: This was a retrospective analysis on a naturalistic sample. Patients were unblinded and more heterogenous than those included in most controlled clinical trial samples. Information pertaining to traumatic events occurring after childhood and pre-existing or concurrent medical conditions that may have affected outcomes was not available.Conclusions: Overall, ketamine's effect in patients with severe baseline depression and history of childhood maltreatment may be consistent with ketamine-induced blockade of behavioral sensitization. [ABSTRACT FROM AUTHOR]

Published

2021

40. Behavioral sensitization induced by methamphetamine causes differential alterations in gene expression and histone acetylation of the prefrontal cortex in rats.

Author

Li, Hui, Chen, Jing-An, Ding, Qian-Zhi, Lu, Guan-Yi, Wu, Ning, Su, Rui-Bin, Li, Fei, and Li, Jin

Subjects

*HISTONE acetylation, *GENE expression, *PREFRONTAL cortex, *GENES, *METHAMPHETAMINE

Abstract

Background: Methamphetamine (METH) is one of the most widely abused illicit substances worldwide; unfortunately, its addiction mechanism remains unclear. Based on accumulating evidence, changes in gene expression and chromatin modifications might be related to the persistent effects of METH on the brain. In the present study, we took advantage of METH-induced behavioral sensitization as an animal model that reflects some aspects of drug addiction and examined the changes in gene expression and histone acetylation in the prefrontal cortex (PFC) of adult rats.Methods: We conducted mRNA microarray and chromatin immunoprecipitation (ChIP) coupled to DNA microarray (ChIP-chip) analyses to screen and identify changes in transcript levels and histone acetylation patterns. Functional enrichment analyses, including Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses, were performed to analyze the differentially expressed genes. We then further identified alterations in ANP32A (acidic leucine-rich nuclear phosphoprotein-32A) and POU3F2 (POU domain, class 3, transcription factor 2) using qPCR and ChIP-PCR assays.Results: In the rat model of METH-induced behavioral sensitization, METH challenge caused 275 differentially expressed genes and a number of hyperacetylated genes (821 genes with H3 acetylation and 10 genes with H4 acetylation). Based on mRNA microarray and GO and KEGG enrichment analyses, 24 genes may be involved in METH-induced behavioral sensitization, and 7 genes were confirmed using qPCR. We further examined the alterations in the levels of the ANP32A and POU3F2 transcripts and histone acetylation at different periods of METH-induced behavioral sensitization. H4 hyperacetylation contributed to the increased levels of ANP32A mRNA and H3/H4 hyperacetylation contributed to the increased levels of POU3F2 mRNA induced by METH challenge-induced behavioral sensitization, but not by acute METH exposure.Conclusions: The present results revealed alterations in transcription and histone acetylation in the rat PFC by METH exposure and provided evidence that modifications of histone acetylation contributed to the alterations in gene expression caused by METH-induced behavioral sensitization. [ABSTRACT FROM AUTHOR]

Published

2021

41. Mitochondrial Uptake of Thiamin Pyrophosphate: Physiological and Cell Biological Aspects

Author

Subramanian, Veedamali S, Nabokina, Svetlana M, Lin-Moshier, Yaping, Marchant, Jonathan S, Said, Hamid M, and Collins, James F

Subjects

Cultured Neuroblastoma-Cells, Rat-Liver Mitochondria, Epithelial-Cells, Xenopus-Oocytes, Carrier, Translocation, Membrane, Transport, Deficiency, Residuesdeficit/hyperactivity disorder, methylphenidate treatment, behavioral sensitization, oral methylphenidate, cocaine, rats, adults, adhd, striatum, exposure

Published

2013

42. Treatment with zolpidem after ethanol administration potentiates the expression of ethanol-induced behavioral sensitization in mice

Author

N.R.N. Brandão, M. Libarino-Santos, E.A.V. Marinho, T.S. Oliveira, A.L.N. Borges, A.P. Oliveira, D. Oliveira-Campos, N. Azevedo-Souza, V.F.L. Santos, L.F. Berro, and A.J. Oliveira-Lima

Subjects

Ethanol, Behavioral sensitization, Zolpidem, Open-field, Mice, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Contradictory findings suggest that the behavioral and abuse-related effects of ethanol are mediated by its action at α1 subunit-containing GABAA (α1GABAA) receptors. In the present study, we investigated the effects of a sub-chronic post-ethanol administration treatment with zolpidem, an α1-preferring positive allosteric modulator at GABAA receptors, on the subsequent expression of ethanol-induced behavioral sensitization in mice. Animals received ethanol (1.8 g/kg, ip) or saline treatments every other day for 15 days (8 treatment sessions) and were subsequently treated with zolpidem (0.5 mg/kg, ip) or vehicle 4 times on alternate days. At the end of the treatment phase, animals were challenged with saline or ethanol on separate days for the evaluation of the expression of conditioned locomotion and behavioral sensitization. Eight-day treatment with ethanol did not lead to the development of ethanol-induced behavioral sensitization. Animals treated with ethanol and subsequently administered vehicle showed similar locomotion frequencies during the last ethanol challenge compared to the control group receiving ethanol for the first time. Animals treated with ethanol and subsequently administered zolpidem expressed behavioral sensitization to ethanol during the ethanol challenge. The present study adds to the literature by providing further evidence of a role of α1GABAA receptors on the behavioral effects of ethanol. Because of the current highly prevalent co-abuse of ethanol and benzodiazepine drugs in humans, the use of zolpidem and other α1GABAA receptor ligands during ethanol withdrawal should be monitored carefully.

Published

2020

43. Prepulse Inhibition of the Startle Reflex as a Predictor of Vulnerability to Develop Locomotor Sensitization to Cocaine

Author

M. Carmen Arenas, María Carmen Blanco-Gandía, José Miñarro, and Carmen Manzanedo

Subjects

prepulse inhibition, cocaine, male and female mice, endophenotype, behavioral sensitization, motor effects, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Prepulse inhibition (PPI) of the startle reflex is a measure of sensory-motor synchronization. A deficit in PPI has been observed in psychiatric patients, especially those with schizophrenia and vulnerable subjects, since the neural bases of this disorder are also involved in the regulation of PPI. Recently, we have reported that baseline PPI levels in mice can predict their sensitivity to the conditioned reinforcing effects of cocaine in the conditioned place preference (CPP) paradigm. Mice with a low PPI presented a lower sensitivity to the conditioned rewarding effects of cocaine; however, once they acquired conditioned preference with a higher dose of the drug, a more persistent associative effect of cocaine with respect to environmental cues was evident in these animals when compared with High-PPI mice. Therefore, we proposed that the PPI paradigm can determine subjects with a higher vulnerability to the effects of cocaine. Developing locomotor sensitization after pre-exposure to cocaine is considered an indicator of transitioning from recreational use to a compulsive consumption of the drug. Thus, the aim of the present study was to evaluate whether subjects with a low PPI display a higher locomotor sensitization induced by cocaine. First, male and female OF1 mice were classified as High- or Low-PPI according to their baseline PPI levels. Subsequently, the motor effects induced by an acute dose of cocaine (Experiments 1 and 2) and the development of locomotor sensitization induced by pre-exposure to this drug (Experiments 3 and 4) were recorded using two apparatuses (Ethovision and actimeter). Low-PPI mice presented low sensitivity to the motor effects of an acute dose of cocaine, but a high increase of activity after repeated administration of the drug, thus suggesting a great developed behavioral sensitization. Differences after pretreatment with cocaine vs. saline were more pronounced among Low-PPI subjects than among High-PPI animals. These results endorse our hypothesis that the PPI paradigm can detect subjects who are more likely to display behaviors induced by cocaine and which can increase the risk of developing a cocaine use disorder. Herein, we further discuss whether a PPI deficit can be considered an endophenotype for cocaine use disorder.

Published

2020

44. Involvement of dopamine D3 receptor and dopamine transporter in methamphetamine‐induced behavioral sensitization in tree shrews

Author

Jian Huang, Genmeng Yang, Zhen Li, Chi‐Kwan Leung, Wenguang Wang, Yuanyuan Li, Liu Liu, Baoyu Shen, Cuihua He, Yongwang He, Xiaofeng Zeng, and Juan Li

Subjects

behavioral sensitization, dopamine D3 receptor, dopamine transporter, METH, methamphetamine, tree shrews, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Introduction This study aims to establish a methamphetamine (METH)‐induced behavioral sensitization model using tree shrews, as well as to measure the protein expression of the dopamine D3 receptor (D3R) and dopamine transporter (DAT). Methods Forty tree shrews were equally and randomly divided into four experimental groups: those administered with 1, 2, and 4 mg/kg METH and a control group (treated with an equal amount of normal saline). Each experimental group was repeatedly exposed to METH for nine consecutive days to induce the development of behavioral sensitization, followed by four days of withdrawal (without the METH treatment) to induce the transfer of behavioral sensitization, then given 0.5 mg/kg of METH to undergo the expression of behavioral sensitization. Altered locomotor and stereotypic behaviors were measured daily via open‐field experiments during the development and expression stages, and weight changes were also recorded. Then, the Western blot method was used to detect the expression levels of D3R and DAT in three brain regions: the nucleus accumbens, prefrontal cortex, and dorsal striatum 24 hr after the last behavioral test. Results METH administration augmented motor‐stimulant responses and stereotypic behaviors in all experimental groups, and stereotypic behaviors intensified more in the groups treated with 2 and 4 mg/kg METH. Motion distance, speed, and trajectory were significantly elevated in all experimental, however, METH at 4 mg/kg induced more stereotypic behaviors, decreasing these locomotor activities as compared with the 2 mg/kg METH group. 2 and 4 mg/kg METH significantly upregulated and downregulated D3R and DAT expression levels, respectively, in three brain regions, and these changes are more pronounced in 2 mg/kg METH. Conclusions These results indicated that this animal model may be used to study the neurobiological mechanisms that underly the development and expression of behavioral sensitization to METH. Deregulated D3R and DAT expression may be involved in the METH‐induced behavioral sensitization.

Published

2020

45. Environmental Enrichment Attenuates Morphine-Induced Conditioned Place Preference and Locomotor Sensitization in Maternally Separated Rat Pups

Author

Soheyla Khalaji, Imanollah Bigdeli, Raheb Ghorbani, and Hossein Miladi-Gorji

Subjects

Maternal separation, Enriched environment, Conditioned place preference, Morphine, Behavioral sensitization, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Introduction: This study investigated the effect of the environmental enrichment during adolescence on morphine-induced Conditioned Place Preference (CPP) and locomotor sensitization in maternally separated male and female rat pups. Methods: Male Wistar rats were allowed to mate with female virgin Wistar rats. Pups were separated from them 3 hours per day during 2–14 days postnatal. All pups were weaned at 21 Postnatal Day (PND) and reared in standard environment or enriched environment from 21 to 50 PND with litter-mates of the same sex. The CPP and behavioral sensitization to morphine were assessed by an unbiased place conditioning paradigm and open filed method. Results: The results showed that the maternal separation enhanced morphine-induced CPP in both sexes, locomotor sensitization in male pups and tolerance to morphine-induced motor activity in female pups during adolescence. While, male and female pups reared in an EE exhibited a decrease in morphine-induced CPP, locomotor sensitization and tolerance induced by maternal separation compared to their control pups. Conclusion: Access to enriched environment during adolescence may have a protective effect against morphine-induced reward, locomotor sensitization and tolerance in adolescent male and female rats following maternal separation.

Published

2018

46. Glutathione peroxidase-1 knockout potentiates behavioral sensitization induced by cocaine in mice via σ-1 receptor-mediated ERK signaling: A comparison with the case of glutathione peroxidase-1 overexpressing transgenic mice.

Author

Mai, Huynh Nhu, Pham, Duc Toan, Chung, Yoon Hee, Sharma, Naveen, Cheong, Jae Hoon, Yun, Jaesuk, Nah, Seung-Yeol, Jeong, Ji Hoon, Gen Lei, Xin, Shin, Eun-Joo, Nabeshima, Toshitaka, and Kim, Hyoung-Chun

Subjects

*COCAINE, *COCAINE-induced disorders, *SIGMA receptors, *TRANSGENIC mice, *GLUTATHIONE, *GENETIC overexpression, *MICE, *DRUG addiction

Abstract

• Genetic depletion of GPx-1 potentiates cocaine-induced behavioral sensitization. • Signaling of σ-1 receptor-ERK-oxidative burden mediates the behavioral sensitization. • GPx-1 gene inhibits this signaling, and induces Nrf-2-related GSH system. We demonstrated that the gene of glutathione peroxidase-1 (GPx-1), a major antioxidant enzyme, is a potential protectant against the neurotoxicity and conditioned place preference induced by cocaine. Because the sigma (σ)-1 receptor is implicated in cocaine-induced drug dependence, we investigated whether the GPx-1 gene modulates the σ-1 receptor in the behavioral sensitization induced by cocaine. Cocaine-induced behavioral sensitization was more pronounced in GPx-1 knockout (KO) than wild-type (WT) mice and was less pronounced in GPx-1 overexpressing transgenic (GPx-1 TG) than non-TG mice. Cocaine treatment significantly enhanced the oxidative burden and reduced the GSH levels in the striatum of WT, GPx-1 KO, and non-TG mice but not in that of GPx-1 TG mice. In addition, cocaine significantly increased the nuclear translocation, its DNA binding activity of nuclear factor erythroid-2-related factor 2 (Nrf2) as well as the mRNA expression of γ-glutamylcysteine (GCL). The genetic depletion of GPx-1 inhibited the Nrf2-related glutathione system, whereas the genetic overexpression of GPx-1 activated this system against behavioral sensitization. BD1047, a σ-1 receptor antagonist, and U0126, an ERK inhibitor significantly induced the Nrf2-related antioxidant potential against behavioral sensitization. Unlike BD1047, U0126 did not affect the cocaine-induced σ-1 receptor immunoreactivity, suggesting that the σ-1 receptor is an upstream molecule for ERK signaling. Importantly, BD1047 and U0126 failed to affect the σ-1 receptor immunoreactivity and ERK phosphorylation induced by cocaine in GPx-1 TG mice. Our results suggest that GPx-1 is a critical mediator for the attenuation of cocaine-induced behavioral sensitization via modulating σ-1 receptor-mediated ERK activation by the induction of the Nrf2-related system. [ABSTRACT FROM AUTHOR]

Published

2020

47. Chronic exposure to cocaine is associated with persistent behavioral disturbances. A cross-sectional dimensional study in outpatients with multiple substance use disorders.

Author

Vorspan, Florence, de Witt, Pauline, Zerdazi, El-hadi, Karsinti, Emily, Ksouda, Kamilia, Icick, Romain, Bellivier, Frank, Marie, Nicolas, Brousse, Georges, and Bloch, Vanessa

Subjects

*COCAINE, *SUBSTANCE-induced disorders, *INTEGERS, *CROSS-sectional method, *DRUG administration, *ADULT-child relationships

Abstract

Rationale: Behavioral disturbances (BD) are prevalent in patients with substance use disorders (SUD). Objectives: To test the hypothesis that chronic exposure to cocaine could favor the acquisition of BD that were not present in childhood. Methods: We used child and adult ADHD self-report screening scales (WURS-25 and ASRS-6, respectively, with their usual threshold) as assessment tools for significant BD. In a cross-sectional assessment of 382 patients with multiple SUD, we investigated BD and then "de novo" BD (i.e., by restricting the sample to patients below the threshold for childhood BD) (N = 214). We also tested for a gradient effect between patients' lifetime DSM IV cocaine and opioid dependence status and the prevalence of BD. Results: BD were found in 188/382 (42.9%) subjects and in 74/214 (34.6%) subjects. Three clinical factors were associated with BD in the whole sample: the number of cocaine dependence criteria (OR = 1.36 [1.14–1.64], p = 0.001), the number of opioid dependence criteria (OR = 0.69 [0.52–0.91], p = 0.010), and a personal history of using cocaine through rapid routes of administration (OR = 0.41 [0.19–0.88], p = 0.022). The same three factors were associated with "de novo" BD in the restricted sample: OR = 1.35 ([1.11–1.63], p = 0.002), OR = 0.83 ([0.70–0.99], p = 0.046), and OR 0.37 ([0.16–0.86], p = 0.022), respectively. There were significant gradients for BD according to the cocaine exposure categories in the whole (Mantel-Haenszel, p < 0.001) and in the restricted sample (Mantel-Haenszel, p = 0.002). Conclusions: Cocaine exposure was positively associated with behavioral disturbances in a dose-dependent manner in this clinical sample, whilst opioid exposure showed a negative association. [ABSTRACT FROM AUTHOR]

Published

2020

48. Caveolin-1 regulates medium spiny neuron structural and functional plasticity.

Author

Eisinger, Katherine R. Tonn, Chapp, Andrew D., Swanson, Samuel P., Tam, Daniel, Lopresti, Natalie M., Larson, Erin B., Thomas, Mark J., Lanier, Lorene M., and Mermelstein, Paul G.

Subjects

*NUCLEUS accumbens, *PHOSPHOLIPASE C, *NEURONS, *NEUROPLASTICITY, *CELL morphology, *CYTOSKELETAL proteins

Abstract

Rationale: Caveolin-1 (CAV1) is a structural protein critical for spatial organization of neuronal signaling molecules. Whether CAV1 is required for long-lasting neuronal plasticity remains unknown. Objective and Methods: We sought to examine the effects of CAV1 knockout (KO) on functional plasticity and hypothesized that CAV1 deficiency would impact drug-induced long-term plasticity in the nucleus accumbens (NAc). We first examined cell morphology of NAc medium spiny neurons in a striatal/cortical co-culture system before moving in vivo to study effects of CAV1 KO on cocaine-induced plasticity. Whole-cell patch-clamp recordings were performed to determine effects of chronic cocaine (15 mg/kg) on medium spiny neuron excitability. To test for deficits in behavioral plasticity, we examined the effect of CAV1 KO on locomotor sensitization. Results: Disruption of CAV1 expression leads to baseline differences in medium spiny neuron (MSN) structural morphology, such that MSNs derived from CAV1 KO animals have increased dendritic arborization when cultured with cortical neurons. The effect was dependent on phospholipase C and cell-type intrinsic loss of CAV1. Slice recordings of nucleus accumbens shell MSNs revealed that CAV1 deficiency produces a loss of neuronal plasticity. Specifically, cocaine-induced firing rate depression was absent in CAV1 KO animals, whereas baseline electrophysiological properties were similar. This was reflected by a loss of cocaine-mediated behavioral sensitization in CAV1 KO animals, with unaffected baseline locomotor responsiveness. Conclusions: This study highlights a critical role for nucleus accumbens CAV1 in plasticity related to the administration of drugs of abuse. [ABSTRACT FROM AUTHOR]

Published

2020

49. The role of HINT1 in methamphetamine-induced behavioral sensitization.

Author

Liu, Peng, Lei, Gang, Chu, Zheng, Deng, Li-sha, Yang, Liu, He, Jun-liang, and Dang, Yong-hui

Subjects

*METHAMPHETAMINE, *KNOCKOUT mice, *COMPULSIVE behavior, *DRUG addiction, *GEOMETRIC distribution, *HIP fractures, *NUCLEUS accumbens

Abstract

Background: Drug addiction is a chronically relapsing disorder in humans yet the underlying mechanism remained unclear. Recent studies suggested that histidine triad nucleotide binding protein1 (HINT1) may play significant roles in diverse neuropsychiatric diseases including drug addiction. Methods: In the current study, we used different batches of mice to establish different stages of methamphetamine (METH)-induced behavioral sensitization (BS) to explore the dynamic changes throughout the process of addiction in different brain regions, including the prefrontal cortex (PFC), nucleus accumbens (NAc), caudate putamen (CPu), and hippocampus (Hip). In addition, we used HINT1 knockout (KO) mice to investigate the effect of HINT1 protein deletion on METH-induced BS. Results: We found that in PFC of the METH group mice, the HINT1 expression level initially increased after development phase, and then dropped to the normal level during expression phase. However, there was no statistical difference in the HINT1 expression level in the other three encephalic regions (NAc, CPu, and Hip). The absence of HINT1 could promote METH-mediated addictive behavior to a certain extent, while the significant difference between genotypes only occurred in the development phase. Conclusions: Using the new technique, hip fractures were correctly predicted in 78% of cases compared with 36% when using the T-score. The accuracy of the prediction was not greatly reduced when using SSM and SAM (78% and 74% correct, respectively). Various geometric and BMD distribution traits were identified in the fractured and non-fractured groups. [ABSTRACT FROM AUTHOR]

Published

2020

50. Apomorphine-induced sensitization in rats exposed to restraint stress: Relationship with adaptation to stress.

Author

Ikram, Huma, Ahmed, Shoaib, and Haleem, Darakhshan Jabeen

Abstract

Drug abuse and impaired adaptation to stress are inter-related. Drug abuse is more potentiated upon exposure to stress and an impairment to cope with stress may lead to depression. On the other hand, use of addictive compounds increase the vulnerability to depression by inhibiting the adaptation to stress. Present study investigates relationship between behavioral tolerance to repeated restraint stress and apomorphine-induced sensitization. Apomorphine was injected either before or after the restraint stress episode, to monitor drug-induced behavioral sensitization and place preference. Apomorphine-induced sensitization and place preference were enhanced if the drug is experiencing during restraint stress. Conversely, apomorphine-induced sensitization and place preference were attenuated if the drug is experiencing after restraint stress. It shows that apomorphine, if experienced during restraint stress, produces greater sensitization Conversely, sensitization effects of apomorphine are blocked in animals receiving apomorphine after the termination of restraint stress. The results tend to show that drug of abuse may be effective for the treatment but not prevention of stress-induced depression. [ABSTRACT FROM AUTHOR]

Published

2020